plat/mediatek/drivers/spm/mt8188/mt_spm_internal.c

/*
 * Copyright (c) 2023, MediaTek Inc. All rights reserved.
 *
 * SPDX-License-Identifier: BSD-3-Clause
 */

#include <assert.h>
#include <stddef.h>
#include <stdio.h>
#include <string.h>

#include <common/debug.h>
#include <drivers/delay_timer.h>
#include <lib/mmio.h>

#include <drivers/spm/mt_spm_resource_req.h>
#include "mt_spm.h"
#include "mt_spm_internal.h"
#include "mt_spm_pmic_wrap.h"
#include "mt_spm_reg.h"
#include <platform_def.h>

#define SPM_INIT_DONE_US (20) /* Simulation result */

wake_reason_t __spm_output_wake_reason(const struct wake_status *wakesta)
{
	wake_reason_t wr = WR_UNKNOWN;

	if (wakesta == NULL) {
		return wr;
	}

	if (wakesta->is_abort != 0U) {
		VERBOSE("SPM EARLY WAKE r12 = 0x%x, debug_flag = 0x%x 0x%x\n",
			wakesta->tr.comm.r12,
			wakesta->tr.comm.debug_flag, wakesta->tr.comm.debug_flag1);
		VERBOSE("SPM EARLY WAKE sw_flag = 0x%x 0x%x b_sw_flag = 0x%x 0x%x\n",
			wakesta->sw_flag0, wakesta->sw_flag1,
			wakesta->tr.comm.b_sw_flag0, wakesta->tr.comm.b_sw_flag1);
	}

	if ((wakesta->tr.comm.r12 & R12_PCM_TIMER) != 0U) {

		if ((wakesta->wake_misc & WAKE_MISC_PCM_TIMER_EVENT) != 0U) {
			wr = WR_PCM_TIMER;
		}
	}

	return wr;
}

void __spm_set_cpu_status(unsigned int cpu)
{
	if (cpu >= 8) {
		ERROR("%s: error cpu number %d\n", __func__, cpu);
		return;
	}
	mmio_write_32(ROOT_CPUTOP_ADDR, BIT(cpu));
	mmio_write_32(ROOT_CORE_ADDR, SPM_CPU0_PWR_CON + (cpu * 0x4) + 0x20000000);
	/* Notify MCUPM to wake the target CPU up */
	mmio_write_32(MCUPM_MBOX_WAKEUP_CPU, cpu);
}

void __spm_src_req_update(const struct pwr_ctrl *pwrctrl, unsigned int resource_usage)
{

	uint8_t reg_spm_apsrc_req = (resource_usage & MT_SPM_DRAM_S0) ?
				    1 : pwrctrl->reg_spm_apsrc_req;
	uint8_t reg_spm_ddr_en_req = (resource_usage & MT_SPM_DRAM_S1) ?
				     1 : pwrctrl->reg_spm_ddr_en_req;
	uint8_t reg_spm_vrf18_req = (resource_usage & MT_SPM_SYSPLL) ?
				    1 : pwrctrl->reg_spm_vrf18_req;
	uint8_t reg_spm_infra_req = (resource_usage & MT_SPM_INFRA) ?
				    1 : pwrctrl->reg_spm_infra_req;
	uint8_t reg_spm_f26m_req  = (resource_usage & (MT_SPM_26M | MT_SPM_XO_FPM)) ?
				    1 : pwrctrl->reg_spm_f26m_req;

	/* SPM_SRC_REQ */
	mmio_write_32(SPM_SRC_REQ,
		      ((reg_spm_apsrc_req & 0x1) << 0) |
		      ((reg_spm_f26m_req & 0x1) << 1) |
		      ((reg_spm_infra_req & 0x1) << 3) |
		      ((reg_spm_vrf18_req & 0x1) << 4) |
		      ((reg_spm_ddr_en_req & 0x1) << 7) |
		      ((pwrctrl->reg_spm_dvfs_req & 0x1) << 8) |
		      ((pwrctrl->reg_spm_sw_mailbox_req & 0x1) << 9) |
		      ((pwrctrl->reg_spm_sspm_mailbox_req & 0x1) << 10) |
		      ((pwrctrl->reg_spm_adsp_mailbox_req & 0x1) << 11) |
		      ((pwrctrl->reg_spm_scp_mailbox_req & 0x1) << 12));
}

void __spm_set_power_control(const struct pwr_ctrl *pwrctrl)
{
	/* SPM_AP_STANDBY_CON */
	mmio_write_32(SPM_AP_STANDBY_CON,
		      ((pwrctrl->reg_wfi_op & 0x1) << 0) |
		      ((pwrctrl->reg_wfi_type & 0x1) << 1) |
		      ((pwrctrl->reg_mp0_cputop_idle_mask & 0x1) << 2) |
		      ((pwrctrl->reg_mp1_cputop_idle_mask & 0x1) << 3) |
		      ((pwrctrl->reg_mcusys_idle_mask & 0x1) << 4) |
		      ((pwrctrl->reg_md_apsrc_1_sel & 0x1) << 25) |
		      ((pwrctrl->reg_md_apsrc_0_sel & 0x1) << 26) |
		      ((pwrctrl->reg_conn_apsrc_sel & 0x1) << 29));

	/* SPM_SRC_REQ */
	mmio_write_32(SPM_SRC_REQ,
		      ((pwrctrl->reg_spm_apsrc_req & 0x1) << 0) |
		      ((pwrctrl->reg_spm_f26m_req & 0x1) << 1) |
		      ((pwrctrl->reg_spm_infra_req & 0x1) << 3) |
		      ((pwrctrl->reg_spm_vrf18_req & 0x1) << 4) |
		      ((pwrctrl->reg_spm_ddr_en_req & 0x1) << 7) |
		      ((pwrctrl->reg_spm_dvfs_req & 0x1) << 8) |
		      ((pwrctrl->reg_spm_sw_mailbox_req & 0x1) << 9) |
		      ((pwrctrl->reg_spm_sspm_mailbox_req & 0x1) << 10) |
		      ((pwrctrl->reg_spm_adsp_mailbox_req & 0x1) << 11) |
		      ((pwrctrl->reg_spm_scp_mailbox_req & 0x1) << 12));

	/* SPM_SRC_MASK */
	mmio_write_32(SPM_SRC_MASK,
		      ((pwrctrl->reg_sspm_srcclkena_0_mask_b & 0x1) << 0) |
		      ((pwrctrl->reg_sspm_infra_req_0_mask_b & 0x1) << 1) |
		      ((pwrctrl->reg_sspm_apsrc_req_0_mask_b & 0x1) << 2) |
		      ((pwrctrl->reg_sspm_vrf18_req_0_mask_b & 0x1) << 3) |
		      ((pwrctrl->reg_sspm_ddr_en_0_mask_b & 0x1) << 4) |
		      ((pwrctrl->reg_scp_srcclkena_mask_b & 0x1) << 5) |
		      ((pwrctrl->reg_scp_infra_req_mask_b & 0x1) << 6) |
		      ((pwrctrl->reg_scp_apsrc_req_mask_b & 0x1) << 7) |
		      ((pwrctrl->reg_scp_vrf18_req_mask_b & 0x1) << 8) |
		      ((pwrctrl->reg_scp_ddr_en_mask_b & 0x1) << 9) |
		      ((pwrctrl->reg_audio_dsp_srcclkena_mask_b & 0x1) << 10) |
		      ((pwrctrl->reg_audio_dsp_infra_req_mask_b & 0x1) << 11) |
		      ((pwrctrl->reg_audio_dsp_apsrc_req_mask_b & 0x1) << 12) |
		      ((pwrctrl->reg_audio_dsp_vrf18_req_mask_b & 0x1) << 13) |
		      ((pwrctrl->reg_audio_dsp_ddr_en_mask_b & 0x1) << 14) |
		      ((pwrctrl->reg_apu_srcclkena_mask_b & 0x1) << 15) |
		      ((pwrctrl->reg_apu_infra_req_mask_b & 0x1) << 16) |
		      ((pwrctrl->reg_apu_apsrc_req_mask_b & 0x1) << 17) |
		      ((pwrctrl->reg_apu_vrf18_req_mask_b & 0x1) << 18) |
		      ((pwrctrl->reg_apu_ddr_en_mask_b & 0x1) << 19) |
		      ((pwrctrl->reg_cpueb_srcclkena_mask_b & 0x1) << 20) |
		      ((pwrctrl->reg_cpueb_infra_req_mask_b & 0x1) << 21) |
		      ((pwrctrl->reg_cpueb_apsrc_req_mask_b & 0x1) << 22) |
		      ((pwrctrl->reg_cpueb_vrf18_req_mask_b & 0x1) << 23) |
		      ((pwrctrl->reg_cpueb_ddr_en_mask_b & 0x1) << 24) |
		      ((pwrctrl->reg_bak_psri_srcclkena_mask_b & 0x1) << 25) |
		      ((pwrctrl->reg_bak_psri_infra_req_mask_b & 0x1) << 26) |
		      ((pwrctrl->reg_bak_psri_apsrc_req_mask_b & 0x1) << 27) |
		      ((pwrctrl->reg_bak_psri_vrf18_req_mask_b & 0x1) << 28) |
		      ((pwrctrl->reg_bak_psri_ddr_en_mask_b & 0x1) << 29) |
		      ((pwrctrl->reg_cam_ddren_req_mask_b & 0x1) << 30) |
		      ((pwrctrl->reg_img_ddren_req_mask_b & 0x1) << 31));

	/* SPM_SRC2_MASK */
	mmio_write_32(SPM_SRC2_MASK,
		      ((pwrctrl->reg_msdc0_srcclkena_mask_b & 0x1) << 0) |
		      ((pwrctrl->reg_msdc0_infra_req_mask_b & 0x1) << 1) |
		      ((pwrctrl->reg_msdc0_apsrc_req_mask_b & 0x1) << 2) |
		      ((pwrctrl->reg_msdc0_vrf18_req_mask_b & 0x1) << 3) |
		      ((pwrctrl->reg_msdc0_ddr_en_mask_b & 0x1) << 4) |
		      ((pwrctrl->reg_msdc1_srcclkena_mask_b & 0x1) << 5) |
		      ((pwrctrl->reg_msdc1_infra_req_mask_b & 0x1) << 6) |
		      ((pwrctrl->reg_msdc1_apsrc_req_mask_b & 0x1) << 7) |
		      ((pwrctrl->reg_msdc1_vrf18_req_mask_b & 0x1) << 8) |
		      ((pwrctrl->reg_msdc1_ddr_en_mask_b & 0x1) << 9) |
		      ((pwrctrl->reg_msdc2_srcclkena_mask_b & 0x1) << 10) |
		      ((pwrctrl->reg_msdc2_infra_req_mask_b & 0x1) << 11) |
		      ((pwrctrl->reg_msdc2_apsrc_req_mask_b & 0x1) << 12) |
		      ((pwrctrl->reg_msdc2_vrf18_req_mask_b & 0x1) << 13) |
		      ((pwrctrl->reg_msdc2_ddr_en_mask_b & 0x1) << 14) |
		      ((pwrctrl->reg_ufs_srcclkena_mask_b & 0x1) << 15) |
		      ((pwrctrl->reg_ufs_infra_req_mask_b & 0x1) << 16) |
		      ((pwrctrl->reg_ufs_apsrc_req_mask_b & 0x1) << 17) |
		      ((pwrctrl->reg_ufs_vrf18_req_mask_b & 0x1) << 18) |
		      ((pwrctrl->reg_ufs_ddr_en_mask_b & 0x1) << 19) |
		      ((pwrctrl->reg_usb_srcclkena_mask_b & 0x1) << 20) |
		      ((pwrctrl->reg_usb_infra_req_mask_b & 0x1) << 21) |
		      ((pwrctrl->reg_usb_apsrc_req_mask_b & 0x1) << 22) |
		      ((pwrctrl->reg_usb_vrf18_req_mask_b & 0x1) << 23) |
		      ((pwrctrl->reg_usb_ddr_en_mask_b & 0x1) << 24) |
		      ((pwrctrl->reg_pextp_p0_srcclkena_mask_b & 0x1) << 25) |
		      ((pwrctrl->reg_pextp_p0_infra_req_mask_b & 0x1) << 26) |
		      ((pwrctrl->reg_pextp_p0_apsrc_req_mask_b & 0x1) << 27) |
		      ((pwrctrl->reg_pextp_p0_vrf18_req_mask_b & 0x1) << 28) |
		      ((pwrctrl->reg_pextp_p0_ddr_en_mask_b & 0x1) << 29));

	/* SPM_SRC3_MASK */
	mmio_write_32(SPM_SRC3_MASK,
		      ((pwrctrl->reg_pextp_p1_srcclkena_mask_b & 0x1) << 0) |
		      ((pwrctrl->reg_pextp_p1_infra_req_mask_b & 0x1) << 1) |
		      ((pwrctrl->reg_pextp_p1_apsrc_req_mask_b & 0x1) << 2) |
		      ((pwrctrl->reg_pextp_p1_vrf18_req_mask_b & 0x1) << 3) |
		      ((pwrctrl->reg_pextp_p1_ddr_en_mask_b & 0x1) << 4) |
		      ((pwrctrl->reg_gce0_infra_req_mask_b & 0x1) << 5) |
		      ((pwrctrl->reg_gce0_apsrc_req_mask_b & 0x1) << 6) |
		      ((pwrctrl->reg_gce0_vrf18_req_mask_b & 0x1) << 7) |
		      ((pwrctrl->reg_gce0_ddr_en_mask_b & 0x1) << 8) |
		      ((pwrctrl->reg_gce1_infra_req_mask_b & 0x1) << 9) |
		      ((pwrctrl->reg_gce1_apsrc_req_mask_b & 0x1) << 10) |
		      ((pwrctrl->reg_gce1_vrf18_req_mask_b & 0x1) << 11) |
		      ((pwrctrl->reg_gce1_ddr_en_mask_b & 0x1) << 12) |
		      ((pwrctrl->reg_spm_srcclkena_reserved_mask_b & 0x1) << 13) |
		      ((pwrctrl->reg_spm_infra_req_reserved_mask_b & 0x1) << 14) |
		      ((pwrctrl->reg_spm_apsrc_req_reserved_mask_b & 0x1) << 15) |
		      ((pwrctrl->reg_spm_vrf18_req_reserved_mask_b & 0x1) << 16) |
		      ((pwrctrl->reg_spm_ddr_en_reserved_mask_b & 0x1) << 17) |
		      ((pwrctrl->reg_disp0_ddr_en_mask_b & 0x1) << 18) |
		      ((pwrctrl->reg_disp0_ddr_en_mask_b & 0x1) << 19) |
		      ((pwrctrl->reg_disp1_apsrc_req_mask_b & 0x1) << 20) |
		      ((pwrctrl->reg_disp1_ddr_en_mask_b & 0x1) << 21) |
		      ((pwrctrl->reg_disp2_apsrc_req_mask_b & 0x1) << 22) |
		      ((pwrctrl->reg_disp2_ddr_en_mask_b & 0x1) << 23) |
		      ((pwrctrl->reg_disp3_apsrc_req_mask_b & 0x1) << 24) |
		      ((pwrctrl->reg_disp3_ddr_en_mask_b & 0x1) << 25) |
		      ((pwrctrl->reg_infrasys_apsrc_req_mask_b & 0x1) << 26) |
		      ((pwrctrl->reg_infrasys_ddr_en_mask_b & 0x1) << 27));

	/* SPM_SRC4_MASK */
	mmio_write_32(SPM_SRC4_MASK,
		      ((pwrctrl->reg_mcusys_merge_apsrc_req_mask_b & 0x1ff) << 0) |
		      ((pwrctrl->reg_mcusys_merge_ddr_en_mask_b & 0x1ff) << 9) |
		      ((pwrctrl->reg_dramc_md32_infra_req_mask_b & 0x3) << 18) |
		      ((pwrctrl->reg_dramc_md32_vrf18_req_mask_b & 0x3) << 20) |
		      ((pwrctrl->reg_dramc_md32_ddr_en_mask_b & 0x3) << 22) |
		      ((pwrctrl->reg_dvfsrc_event_trigger_mask_b & 0x1) << 24));

	/* SPM_WAKEUP_EVENT_MASK */
	mmio_write_32(SPM_WAKEUP_EVENT_MASK,
		      ((pwrctrl->reg_wakeup_event_mask & 0xffffffff) << 0));

	/* SPM_WAKEUP_EVENT_EXT_MASK */
	mmio_write_32(SPM_WAKEUP_EVENT_EXT_MASK,
		      ((pwrctrl->reg_ext_wakeup_event_mask & 0xffffffff) << 0));
}

void __spm_set_wakeup_event(const struct pwr_ctrl *pwrctrl)
{
	unsigned int val, mask;

	/* toggle event counter clear */
	mmio_setbits_32(PCM_CON1, SPM_REGWR_CFG_KEY | SPM_EVENT_COUNTER_CLR_LSB);
	/* toggle for reset SYS TIMER start point */
	mmio_setbits_32(SYS_TIMER_CON, SYS_TIMER_START_EN_LSB);

	if (pwrctrl->timer_val_cust == 0U) {
		val = (pwrctrl->timer_val != 0U) ? pwrctrl->timer_val : PCM_TIMER_MAX;
	} else {
		val = pwrctrl->timer_val_cust;
	}

	mmio_write_32(PCM_TIMER_VAL, val);
	mmio_setbits_32(PCM_CON1, SPM_REGWR_CFG_KEY | RG_PCM_TIMER_EN_LSB);

	/* unmask AP wakeup source */
	if (pwrctrl->wake_src_cust == 0U) {
		mask = pwrctrl->wake_src;
	} else {
		mask = pwrctrl->wake_src_cust;
	}

	mmio_write_32(SPM_WAKEUP_EVENT_MASK, ~mask);

	/* unmask SPM ISR (keep TWAM setting) */
	mmio_setbits_32(SPM_IRQ_MASK, ISRM_RET_IRQ_AUX);

	/* toggle event counter clear */
	mmio_clrsetbits_32(PCM_CON1, SPM_EVENT_COUNTER_CLR_LSB, SPM_REGWR_CFG_KEY);
	/* toggle for reset SYS TIMER start point */
	mmio_clrbits_32(SYS_TIMER_CON, SYS_TIMER_START_EN_LSB);
}

void __spm_set_pcm_flags(struct pwr_ctrl *pwrctrl)
{
	/* set PCM flags and data */
	if (pwrctrl->pcm_flags_cust_clr != 0U) {
		pwrctrl->pcm_flags &= ~pwrctrl->pcm_flags_cust_clr;
	}
	if (pwrctrl->pcm_flags_cust_set != 0U) {
		pwrctrl->pcm_flags |= pwrctrl->pcm_flags_cust_set;
	}
	if (pwrctrl->pcm_flags1_cust_clr != 0U) {
		pwrctrl->pcm_flags1 &= ~pwrctrl->pcm_flags1_cust_clr;
	}
	if (pwrctrl->pcm_flags1_cust_set != 0U) {
		pwrctrl->pcm_flags1 |= pwrctrl->pcm_flags1_cust_set;
	}

	mmio_write_32(SPM_SW_FLAG_0, pwrctrl->pcm_flags);

	mmio_write_32(SPM_SW_FLAG_1, pwrctrl->pcm_flags1);

	mmio_write_32(SPM_SW_RSV_7, pwrctrl->pcm_flags);

	mmio_write_32(SPM_SW_RSV_8, pwrctrl->pcm_flags1);
}

void __spm_get_wakeup_status(struct wake_status *wakesta, unsigned int ext_status)
{
	/* get wakeup event */
	wakesta->tr.comm.r12 = mmio_read_32(SPM_BK_WAKE_EVENT);	/* backup of PCM_REG12_DATA */
	wakesta->r12_ext = mmio_read_32(SPM_WAKEUP_EXT_STA);
	wakesta->tr.comm.raw_sta = mmio_read_32(SPM_WAKEUP_STA);
	wakesta->raw_ext_sta = mmio_read_32(SPM_WAKEUP_EXT_STA);
	wakesta->md32pcm_wakeup_sta = mmio_read_32(MD32PCM_WAKEUP_STA);
	wakesta->md32pcm_event_sta = mmio_read_32(MD32PCM_EVENT_STA);
	wakesta->wake_misc = mmio_read_32(SPM_BK_WAKE_MISC);	/* backup of SPM_WAKEUP_MISC */

	/* get sleep time */
	wakesta->tr.comm.timer_out =
		mmio_read_32(SPM_BK_PCM_TIMER);	/* backup of PCM_TIMER_OUT */

	/* get other SYS and co-clock status */
	wakesta->tr.comm.r13 = mmio_read_32(PCM_REG13_DATA);
	wakesta->idle_sta = mmio_read_32(SUBSYS_IDLE_STA);
	wakesta->tr.comm.req_sta0 = mmio_read_32(SRC_REQ_STA_0);
	wakesta->tr.comm.req_sta1 = mmio_read_32(SRC_REQ_STA_1);
	wakesta->tr.comm.req_sta2 = mmio_read_32(SRC_REQ_STA_2);
	wakesta->tr.comm.req_sta3 = mmio_read_32(SRC_REQ_STA_3);
	wakesta->tr.comm.req_sta4 = mmio_read_32(SRC_REQ_STA_4);

	/* get debug flag for PCM execution check */
	wakesta->tr.comm.debug_flag = mmio_read_32(PCM_WDT_LATCH_SPARE_0);
	wakesta->tr.comm.debug_flag1 = mmio_read_32(PCM_WDT_LATCH_SPARE_1);

	if ((ext_status & SPM_INTERNAL_STATUS_HW_S1) != 0U) {
		wakesta->tr.comm.debug_flag |= (SPM_DBG_DEBUG_IDX_DDREN_WAKE |
						SPM_DBG_DEBUG_IDX_DDREN_SLEEP);
		mmio_write_32(PCM_WDT_LATCH_SPARE_0, wakesta->tr.comm.debug_flag);
	}

	/* get backup SW flag status */
	wakesta->tr.comm.b_sw_flag0 = mmio_read_32(SPM_SW_RSV_7);	/* SPM_SW_RSV_7 */
	wakesta->tr.comm.b_sw_flag1 = mmio_read_32(SPM_SW_RSV_8);	/* SPM_SW_RSV_8 */

	/* get ISR status */
	wakesta->isr = mmio_read_32(SPM_IRQ_STA);

	/* get SW flag status */
	wakesta->sw_flag0 = mmio_read_32(SPM_SW_FLAG_0);
	wakesta->sw_flag1 = mmio_read_32(SPM_SW_FLAG_1);

	/* check abort */
	wakesta->is_abort = wakesta->tr.comm.debug_flag & DEBUG_ABORT_MASK;
	wakesta->is_abort |= wakesta->tr.comm.debug_flag1 & DEBUG_ABORT_MASK_1;
}

void __spm_clean_after_wakeup(void)
{
	/*
	 * Copy SPM_WAKEUP_STA to SPM_BK_WAKE_EVENT before clear SPM_WAKEUP_STA
	 *
	 * CPU dormant driver @kernel will copy edge-trig IRQ pending
	 * (recorded @SPM_BK_WAKE_EVENT) to GIC
	 */
	mmio_write_32(SPM_BK_WAKE_EVENT, mmio_read_32(SPM_WAKEUP_STA) |
		      mmio_read_32(SPM_BK_WAKE_EVENT));

	/* clean CPU wakeup event */
	mmio_write_32(SPM_CPU_WAKEUP_EVENT, 0U);

	/* clean wakeup event raw status (for edge trigger event) */
	mmio_write_32(SPM_WAKEUP_EVENT_MASK, 0xefffffff);	/* bit[28] for cpu wake up event */

	/* clean ISR status (except TWAM) */
	mmio_setbits_32(SPM_IRQ_MASK,  ISRM_ALL_EXC_TWAM);
	mmio_write_32(SPM_IRQ_STA, ISRC_ALL_EXC_TWAM);
	mmio_write_32(SPM_SWINT_CLR, PCM_SW_INT_ALL);
}

void __spm_set_pcm_wdt(int en)
{
	/* enable PCM WDT (normal mode) to start count if needed */
	if (en != 0) {
		mmio_clrsetbits_32(PCM_CON1, RG_PCM_WDT_WAKE_LSB, SPM_REGWR_CFG_KEY);

		if (mmio_read_32(PCM_TIMER_VAL) > PCM_TIMER_MAX) {
			mmio_write_32(PCM_TIMER_VAL, PCM_TIMER_MAX);
		}
		mmio_write_32(PCM_WDT_VAL, mmio_read_32(PCM_TIMER_VAL) + PCM_WDT_TIMEOUT);
		mmio_setbits_32(PCM_CON1, SPM_REGWR_CFG_KEY | RG_PCM_WDT_EN_LSB);
	} else {
		mmio_clrsetbits_32(PCM_CON1, RG_PCM_WDT_EN_LSB, SPM_REGWR_CFG_KEY);
	}
}

void __spm_send_cpu_wakeup_event(void)
{
	mmio_write_32(SPM_CPU_WAKEUP_EVENT, 1);
	/* SPM will clear SPM_CPU_WAKEUP_EVENT */
}

void __spm_ext_int_wakeup_req_clr(void)
{
	mmio_write_32(EXT_INT_WAKEUP_REQ_CLR, mmio_read_32(ROOT_CPUTOP_ADDR));

	/* clear spm2mcupm wakeup interrupt status */
	mmio_write_32(SPM2CPUEB_CON, 0);
}

void __spm_clean_before_wfi(void)
{
}

void __spm_hw_s1_state_monitor(int en, unsigned int *status)
{
	unsigned int reg;

	if (en != 0) {
		mmio_clrsetbits_32(SPM_ACK_CHK_CON_3, SPM_ACK_CHK_3_CON_CLR_ALL,
				   SPM_ACK_CHK_3_CON_EN);
	} else {
		reg = mmio_read_32(SPM_ACK_CHK_CON_3);

		if ((reg & SPM_ACK_CHK_3_CON_RESULT) != 0U) {
			if (status != NULL) {
				*status |= SPM_INTERNAL_STATUS_HW_S1;
			}
		}

		mmio_clrsetbits_32(SPM_ACK_CHK_CON_3, SPM_ACK_CHK_3_CON_EN,
				   (SPM_ACK_CHK_3_CON_HW_MODE_TRIG | SPM_ACK_CHK_3_CON_CLR_ALL));
	}
}